A kind of chip upset and positioner of double-interface card
Technical field
The utility model relates to the equipment of preparing double-interface card, more particularly, relates to a kind of chip upset and positioner of double-interface card.
Background technology
Along with information technology and economic develop rapidly all over the world, economy and information interchange between people are more and more frequent, people are also finding various communication media easily always simultaneously, the contact type CPU card (smart card) using from early stage magnetic card storage card, logic encryption card and now a lot of field finally.Smart card is also being brought into play irreplaceable effect in people's life at present, is that contact intelligent card or contact type intelligent card all have its merits and demerits separately, and the wearing and tearing between contact intelligent card and card machine tool, have shortened its service life greatly.And non-contact card is in the occasion of Radio frequency interference severity, its application is limited; Secondly owing to passing through coupling transferring energy, so require its power consumption very low; Moreover, due to now a lot of industries, as there is technology and the infrastructure of the application of a large amount of contact card in the industries such as finance, communication, they also will continue to use contact card, between this situation set the double-interface card of contact card and non-contact card advantage arise at the historic moment, the demand to double-interface card on market is increasing.
In preparing the process of double-interface card, after 2 wire bonds of chip and double-interface card, chip is generally perpendicular to double-interface card; In follow-up preparation process, vertical chip need to be set level, make chip be basically parallel to double-interface card, then chip is pressed in the chip groove position of double-interface card.Prior art by hand or machinery carry out above-mentioned follow-up preparation process, but there is the defect that efficiency is lower.
Utility model content
The technical problems to be solved in the utility model is, for chip upset and the location of the above-mentioned double-interface card of prior art, has the defect that efficiency is lower, and chip upset and the positioner of the double-interface card that a kind of efficiency is higher is provided.
The utility model solves the technical scheme that its technical problem adopts: construct a kind of chip upset and positioner of double-interface card, comprise chip switching mechanism and chip positioning mechanism; Described chip switching mechanism comprises mount pad, and described mount pad is provided with for the first impeller of turning-over of chip and for by the second impeller of the wire bending that is connected of described chip with after upset; Described chip positioning mechanism comprises two location card hands that are used in conjunction with, and two described location card hands are for clamping the described chip of described wire bending, and two described locator cards are just provided with pressing piece on hand.
In the chip upset and positioner of double-interface card described in the utility model, described mount pad comprises the first mount pad and second mount pad of Joint, described the first impeller is located on described the first mount pad, and described the second impeller is located on described the second mount pad.
In the chip upset and positioner of double-interface card described in the utility model, on described the first mount pad, be also provided with for driving the first actuator of described the first impeller stretching motion.
In the chip upset and positioner of double-interface card described in the utility model, on described the first mount pad, be also provided with two tongs that are used in conjunction with, two described tongs are positioned at the both sides of described the first impeller.
In the chip upset and positioner of double-interface card described in the utility model, on described the second mount pad, be also provided with for driving the second actuator of described the second impeller stretching motion.
In the chip upset and positioner of double-interface card described in the utility model, described the first impeller comprises the first slurcam that is parallel to described double-interface card, and described the first slurcam is for chip described in butt, be pushed to vertical described chip to be parallel to described double-interface card.
In the chip upset and positioner of double-interface card described in the utility model, described the second impeller comprises the second slurcam that is parallel to described double-interface card, and described the second slurcam is for wire described in butt, by described wire bending.
In the chip upset and positioner of double-interface card described in the utility model, described in each, locator card hand comprises a bending part, and described bending part is for the adjacent both sides of chip described in butt.
In the chip upset and positioner of double-interface card described in the utility model, described chip positioning mechanism also comprises the 3rd actuator that drives described pressing piece to move up and down.
In the chip upset and positioner of double-interface card described in the utility model, chip upset and the positioner of described double-interface card also comprise frame and be located at the connecting gear in described frame, and described chip switching mechanism and described chip positioning mechanism are located at respectively in described frame and are all positioned at a side of described connecting gear.
Implement chip upset and the positioner of double-interface card of the present utility model, there is following beneficial effect: the first impeller promotes vertical chip, make chip be parallel to double-interface card by being vertically turned into, simultaneously, the second impeller, by the wire bending being connected with chip, completes the upset of chip; Two location card hands clamp the chip after upset, and pressing piece moves downward simultaneously, chip is pressed in the chip groove position of double-interface card, completes location; Chip upset and the positioning device structure of double-interface card of the present utility model are simpler, and production efficiency is higher.
Accompanying drawing explanation
Below in conjunction with drawings and Examples, the utility model is described in further detail, in accompanying drawing:
Fig. 1 is the flow chart in upset and positioning chip situation while using the chip upset of the utility model double-interface card and positioner;
Fig. 2 is the chip upset of the utility model double-interface card and the structural representation of positioner embodiment;
The partial enlarged drawing at A place in Fig. 3 Fig. 2;
The partial enlarged drawing at B place in Fig. 4 Fig. 2;
In figure:
1-chip switching mechanism; 101-mount pad, 102-the first impeller, 103-the second impeller, 104-the first mount pad, 105-the second mount pad, 106-the first actuator, 107-tong, 108-the second actuator, 109-the first slurcam, 110-the second slurcam;
2-chip positioning mechanism; 201-locates card hand, 202-pressing piece, 203-bending part, 204-the 3rd actuator;
3-frame;
4-connecting gear;
5-chip;
6-wire.
The specific embodiment
For technical characterictic of the present utility model, object and effect being had more clearly, understand, now contrast accompanying drawing and describe the specific embodiment of the present utility model in detail.
In preparing the process of double-interface card, after 2 wire bonds of chip and double-interface card, chip is generally perpendicular to double-interface card; In follow-up preparation process, vertical chip need to be set level, make chip be basically parallel to double-interface card, then chip is pressed in the chip groove position of double-interface card.The chip upset of the double-interface card of the present embodiment and positioner are just for " vertical chip is set level, made chip be basically parallel to double-interface card, then chip is pressed in the chip groove position of double-interface card " this process.
Referring to Fig. 1, figure above in Fig. 1 is chip 5 perpendicular to the situation of double-interface card (not indicating in figure), what certainly can understand is, under certain situation, chip 5 is not perpendicular to double-interface card, but being acute angle or obtuse angle setting with double-interface card, the now chip of the double-interface card of the present embodiment upset and positioner are applicable equally; Double-interface card has a chip groove position, has 2 aerial heads in position, chip groove position, and 2 aerial heads are welded on respectively on chip 5.Figure in the middle of in Fig. 1 is the situation that chip 5 is basically parallel to double-interface card, substantially parallelly refers to that parallel or chip 5 is with double-interface card the angle that is less than 10 degree.In Fig. 1, figure is below the situation in the chip groove position that chip 5 is pressed into double-interface card.Chip upset and the positioner of the double-interface card that in Fig. 1, upset and the process of positioning chip 5 can be by the present embodiment are realized.To describe in detail below.
As shown in Figure 2, Figure 3 and Figure 4.Chip upset and the positioner of the double-interface card of the present embodiment, comprise chip switching mechanism 1 and chip positioning mechanism 2; Chip switching mechanism 1 comprises mount pad 101, and mount pad 101 is provided with for the first impeller 102 of turning-over of chip 5 and for by the second impeller 103 of wire 6 bendings that are connected of chip 5 with after upset; Chip positioning mechanism 2 comprises that 201, two location card hands 201 of be used in conjunction with two location card hands are provided with pressing piece 202 for card hand 201 tops, 5, two location of chip of clamping wires 6 bendings.
As shown in Figure 3.Mount pad 101 comprises that the first mount pad 104 of Joint and the second mount pad 105, the first impellers 102 are located on the first mount pad 104, and the second impeller 103 is located on the second mount pad 105.The first mount pad 104 and the vertical Joint of the second mount pad 105, affixed mode is such as but not limited to being welding or securing member connection etc.The first impeller 102 and the second impeller 103 are positioned at the both sides of chip 5, are convenient to like this operation of the first impeller 102 and the second impeller 103.
On the first mount pad 104, be also provided with for driving the first actuator 106 of the first impeller 102 stretching motions.The first actuator 106 can be Pneumatic Transmission mechanism, Pneumatic Transmission mechanism flows to the first impeller 102 by Compressed Gas via pipeline and control valve, the pressure energy of Compressed Gas is converted to mechanical energy and work done, thereby drive the first impeller 102 to carry out stretching motion, when the first impeller 102 is retracted, the first impeller 102 is contactless with chip 5, the first impeller 102 butt chips 5 when the first impeller 102 stretches out, vertical chip 5 is pushed into and is basically parallel to double-interface card.In certain embodiments, the first actuator 106 can be also screw-drive mechanism, by screw rod and nut meshing, carrys out transferring power, and the first impeller 102 is fixed in the end of screw rod; Or the first actuator 106 is the conventional driving mechanisms such as hydraulic cylinder.
The first impeller 102 comprises that the first slurcam 109, the first slurcams 109 that are parallel to double-interface card are for butt chip 5, be pushed to vertical chip 5 to be parallel to double-interface card.Under the driving of the first actuator 106, the first slurcam 109 carries out stretching motion, thereby vertical chip 5 is pushed to and is parallel to double-interface card; Further, the first slurcam 109 is fixedly connected with the first actuator 106, and the first actuator 106 can be screw-drive mechanism, by screw rod and nut meshing, carrys out transferring power, and the first slurcam 109 is fixed in the end of screw rod; Or the first actuator 106 is the conventional driving mechanisms such as hydraulic cylinder.The first impeller 102 also comprises that the vertical portion extending to form in the first slurcam 109 1 side direction, horizontal part and the horizontal part that the end horizontal of vertical portion extends to form are tilted to the rake extending to form, rake and the first actuator 106 are affixed, such as being welding etc.
On the first mount pad 104, be also provided with the both sides that 107, two tongs 107 of two tongs that are used in conjunction with are positioned at the first impeller 102.Two tongs 107 are spacing for 2 aerial heads are carried out, and avoid 2 aerial heads to expose the chip groove position of double-interface card.Two tongs 107 also can adopt Pneumatic Transmission mechanism to drive.
On the second mount pad 105, be also provided with for driving the second actuator 108 of the second impeller 103 stretching motions.The second actuator 108 can be Pneumatic Transmission mechanism, Pneumatic Transmission mechanism drives the second impeller 103 stretching motions under the effect of Compressed Gas, further, Pneumatic Transmission mechanism carries out stretching motion under the effect of Compressed Gas, Pneumatic Transmission mechanism and the second impeller 103 are affixed, and Pneumatic Transmission mechanism drives the second impeller 103 stretching motions when stretching motion like this.When the second impeller 103 is retracted, the second impeller 103 is contactless with wire 6, the second impeller 103 butt wires 6 when the second impeller 103 stretches out, by wire 6 bendings.In certain embodiments, the second actuator 108 can be also screw-drive mechanism, by screw rod and nut meshing, carrys out transferring power, and the second impeller 103 is fixed in the end of screw rod; Or the first actuator 106 is the conventional driving mechanisms such as hydraulic cylinder.
The second impeller 103 comprises that the second slurcam 110, the second slurcams 110 that are parallel to double-interface card are for butt wire 6, by wire 6 bendings.The second impeller 103 also comprises mounting blocks and extension, and mounting blocks and the second actuator 108 are affixed, and extension is arranged on mounting blocks lower end, and the second slurcam 110 is arranged on extension one side.
As shown in Figure 4.Each location card hand 201 comprises a bending part 203, and bending part 203 is for the adjacent both sides of butt chip 5.The angle of the angle of bending part 203 and chip 5 matches, and each bending part 203 also has two adjacent sidewalls simultaneously, and these two sidewalls are for being connected to two adjacent sides of chip 5; 203 pairs of chips of two bending parts 5 carry out spacing, spacing rear pressing piece 202 moves downward, chip 5 can be pressed in chip groove position accurately like this, avoid pressing piece 202 to press the left and right displacement of the process chips 5 of chip 5, make chip 5 only to move downward in two bending parts 203.Location card hand 201 can adopt the driving mechanisms such as above-mentioned Pneumatic Transmission mechanism or screw-drive mechanism to drive; During actual motion, when chip 5 is placed in card hand 201 below, location, location card hand 201 moves downward, and to chip 5, between two location card hands 201, so latter two location card hand 201 move toward one another, to butt chip 5, step up chip 5.
Chip positioning mechanism 2 also comprises the 3rd actuator 204 that drives pressing piece 202 to move up and down.The 3rd actuator 204 can be above-mentioned Pneumatic Transmission mechanism or screw-drive mechanism.
As shown in Figure 2, the chip of double-interface card overturns and positioner also comprises frame 3 and is located at the connecting gear 4 in frame 3, and chip switching mechanism 1 is located at respectively in frame 3 with chip positioning mechanism 2 and is all positioned at a side of connecting gear 4.Connecting gear 4 preferably adopts step-by-step movement conveyer belt, connecting gear 4 is first sent to double-interface card chip switching mechanism 1 below, chip switching mechanism 1 turning-over of chip 5 bending wire 6, then double-interface card is sent to chip positioning mechanism 2 belows, chip 5 is pressed into chip groove position.
By reference to the accompanying drawings embodiment of the present utility model is described above; but the utility model is not limited to the above-mentioned specific embodiment; the above-mentioned specific embodiment is only schematic; rather than restrictive; those of ordinary skill in the art is under enlightenment of the present utility model; not departing from the scope situation that the utility model aim and claim protect, also can make a lot of forms, within these all belong to protection of the present utility model.